Orion1
Jan1-04, 12:56 AM
Thompson Scattering is photon scattering from a Beta Particle Surface.
Beta particle mass is a fundamental nuclear particle with a beta-wave orbital energy field. The Beta nuclear particle has volume.
Classical Beta Radius:
r_e = \frac{ \hbar \alpha}{M_e c}
r_e = 2.817E-15 m
The wavelength of the beta-wave orbital energy field is equal to the Compton Wavelength(Wave-Bar) and is NOT the Beta Nuclear Radius.
W_c = 3.861*10^-13 m
The beta-wave orbital energy field has zero mass and is composed of pure electromagnetic field energy and has volume.
Measured Beta Thompson Scattering Cross Section:
\sigma_e = 6.652E-29 m^2
Classical Thompson Scattering Cross Section: (Circle)
\sigma_e = \pi r_e^2
\sigma_e = \pi \left( \frac{ \hbar \alpha}{M_e c} \right)^2
\sigma_e = 2.494E-29 m^2
Classical Thompson Scattering Cross Section: (Ellipse)
r_a \geq r_b
\sigma_e = \pi r_a r_b
\sigma_e = \pi \left( \frac{ \hbar \alpha}{M_e c} \right) r_a
r_a = \frac{ \sigma_e}{\pi r_e}
r_a = \frac{ \sigma_e M_e c}{ \pi \hbar \alpha}
r_a = 7.514E-15 m
r_b = 2.817E-15 m
Beta Surface Eccentricity:
e_e = \frac{ \sqrt{r_a^2 - r_b^2}}{r_a}
e_e = 0.927
Beta Foci Radii:
r_c = e_e r_a
r_c = 6.965E-15 m
---
Semi-Classical Beta Nuclear Radius:
r_\beta = r_0 A_\beta^.(1/3)
r_\beta = r_0 \left(M_e N_a \right)^.(1/3)
r_\beta = 9.823E-17 m
r_0 = 1.2E-15 m
N_a = Avagadro's Number
Semi-Classical Beta Nuclear Radius has been confirmed via Hard Beta Nuclear Scattering.
Theoretical:
The Beta Nucleus is composed of three Anti-Rishon Preons:
(-T,-T,-T)
Beta Nucleus is composed of three Anti-Rishon charges with three Colour Charges with a net White Colour Charge:
(-1/3 + -1/3 + -1/3) = -1
Colour Charges:
(-R + -G + -B) = White
(Anti-Red + Anti-Green + Anti-Blue)
Semi-Classical Beta Nuclear Preon Radius:
r_\Delta = r_0 \left( \frac{M_e N_a}{3} \right)^.(1/3)
r_\Delta = 6.811E-17 m
Preons have not been confirmed to exist.
Preons cannot exist beyond a radius of r_\Delta
Beta particle mass is a fundamental nuclear particle with a beta-wave orbital energy field. The Beta nuclear particle has volume.
Classical Beta Radius:
r_e = \frac{ \hbar \alpha}{M_e c}
r_e = 2.817E-15 m
The wavelength of the beta-wave orbital energy field is equal to the Compton Wavelength(Wave-Bar) and is NOT the Beta Nuclear Radius.
W_c = 3.861*10^-13 m
The beta-wave orbital energy field has zero mass and is composed of pure electromagnetic field energy and has volume.
Measured Beta Thompson Scattering Cross Section:
\sigma_e = 6.652E-29 m^2
Classical Thompson Scattering Cross Section: (Circle)
\sigma_e = \pi r_e^2
\sigma_e = \pi \left( \frac{ \hbar \alpha}{M_e c} \right)^2
\sigma_e = 2.494E-29 m^2
Classical Thompson Scattering Cross Section: (Ellipse)
r_a \geq r_b
\sigma_e = \pi r_a r_b
\sigma_e = \pi \left( \frac{ \hbar \alpha}{M_e c} \right) r_a
r_a = \frac{ \sigma_e}{\pi r_e}
r_a = \frac{ \sigma_e M_e c}{ \pi \hbar \alpha}
r_a = 7.514E-15 m
r_b = 2.817E-15 m
Beta Surface Eccentricity:
e_e = \frac{ \sqrt{r_a^2 - r_b^2}}{r_a}
e_e = 0.927
Beta Foci Radii:
r_c = e_e r_a
r_c = 6.965E-15 m
---
Semi-Classical Beta Nuclear Radius:
r_\beta = r_0 A_\beta^.(1/3)
r_\beta = r_0 \left(M_e N_a \right)^.(1/3)
r_\beta = 9.823E-17 m
r_0 = 1.2E-15 m
N_a = Avagadro's Number
Semi-Classical Beta Nuclear Radius has been confirmed via Hard Beta Nuclear Scattering.
Theoretical:
The Beta Nucleus is composed of three Anti-Rishon Preons:
(-T,-T,-T)
Beta Nucleus is composed of three Anti-Rishon charges with three Colour Charges with a net White Colour Charge:
(-1/3 + -1/3 + -1/3) = -1
Colour Charges:
(-R + -G + -B) = White
(Anti-Red + Anti-Green + Anti-Blue)
Semi-Classical Beta Nuclear Preon Radius:
r_\Delta = r_0 \left( \frac{M_e N_a}{3} \right)^.(1/3)
r_\Delta = 6.811E-17 m
Preons have not been confirmed to exist.
Preons cannot exist beyond a radius of r_\Delta